516 XXXI International Mineral Processing Congress 2024 Proceedings/Washington, DC/Sep 29–Oct 3
Case studies on silica and garnet processing highlight
the effectiveness of high-frequency dry screens in achieving
accurate size classification with high efficiency. Overall, the
evolution of dry fine screening technology bridges a crucial
gap in mineral processing, contributing to a more sustain-
able and efficient future for the mining industry.
REFERENCES
Zhang, B., Mohanty, M.K. Brodzik, P., Improving Fine
Coal Cleaning Performance by High-Efficiency Particle
Size Classification, 2014, International Journal of Coal
Preparation and Utilization, 34:3–4, 145–156.
Mohanty, M.K. Palit, A. Dube, B., 2002. A comparative
evaluation of new fine particle size separation technolo-
gies, Minerals Engineering, 15, 727–736.
Rong, R. Naper-Munn, T.J., 2003. Development of a
more efficient classifying cyclone, Coal Prepartion, 23,
149–165.
Valine, S.B. and Wennen, J.E., 2002. Fine screening in
mineral processing operations, Mineral Processing
Plant Design, Practice, and Control, 917–928, Society
for Mining, Metallurgy &Exploration.
VSMA Vibrating Screen Handbook, 1998, Construction
Industry Manufacturers Association.
Kelly, Errol G, and David J Spottiswood. 1982.
“Introduction to Mineral Processing.”
Napier-Munn, Tim, and Barry A. Wills. 2005. Wills’
Mineral Processing Technology Wills’ Mineral Processing
Technology.
Figure 6. Size distribution of feed, oversize and undersize for Test 7
Case studies on silica and garnet processing highlight
the effectiveness of high-frequency dry screens in achieving
accurate size classification with high efficiency. Overall, the
evolution of dry fine screening technology bridges a crucial
gap in mineral processing, contributing to a more sustain-
able and efficient future for the mining industry.
REFERENCES
Zhang, B., Mohanty, M.K. Brodzik, P., Improving Fine
Coal Cleaning Performance by High-Efficiency Particle
Size Classification, 2014, International Journal of Coal
Preparation and Utilization, 34:3–4, 145–156.
Mohanty, M.K. Palit, A. Dube, B., 2002. A comparative
evaluation of new fine particle size separation technolo-
gies, Minerals Engineering, 15, 727–736.
Rong, R. Naper-Munn, T.J., 2003. Development of a
more efficient classifying cyclone, Coal Prepartion, 23,
149–165.
Valine, S.B. and Wennen, J.E., 2002. Fine screening in
mineral processing operations, Mineral Processing
Plant Design, Practice, and Control, 917–928, Society
for Mining, Metallurgy &Exploration.
VSMA Vibrating Screen Handbook, 1998, Construction
Industry Manufacturers Association.
Kelly, Errol G, and David J Spottiswood. 1982.
“Introduction to Mineral Processing.”
Napier-Munn, Tim, and Barry A. Wills. 2005. Wills’
Mineral Processing Technology Wills’ Mineral Processing
Technology.
Figure 6. Size distribution of feed, oversize and undersize for Test 7